AI Article Synopsis
- Studying genome replication in mammalian cells has been difficult, but the new method called Okazaki fragment sequencing (OK-seq) helps identify where replication starts and ends in the human genome.
- OK-seq measures the orientations of replication forks and provides detailed experimental methods for its application in human and yeast cells, along with bioinformatics for analyzing the data.
- This method not only details the genome replication process but also aids in understanding genome stability, epigenome maintenance, and evolution, with experiments completable in about six days.
Article Abstract
Studying the dynamics of genome replication in mammalian cells has been historically challenging. To reveal the location of replication initiation and termination in the human genome, we developed Okazaki fragment sequencing (OK-seq), a quantitative approach based on the isolation and strand-specific sequencing of Okazaki fragments, the lagging strand replication intermediates. OK-seq quantitates the proportion of leftward- and rightward-oriented forks at every genomic locus and reveals the location and efficiency of replication initiation and termination events. Here we provide the detailed experimental procedures for performing OK-seq in unperturbed cultured human cells and budding yeast and the bioinformatics pipelines for data processing and computation of replication fork directionality. Furthermore, we present the analytical approach based on a hidden Markov model, which allows automated detection of ascending, descending and flat replication fork directionality segments revealing the zones of replication initiation, termination and unidirectional fork movement across the entire genome. These tools are essential for the accurate interpretation of human and yeast replication programs. The experiments and the data processing can be accomplished within six days. Besides revealing the genome replication program in fine detail, OK-seq has been instrumental in numerous studies unravelling mechanisms of genome stability, epigenome maintenance and genome evolution.
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| http://dx.doi.org/10.1038/s41596-022-00793-5 | DOI Listing |
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